import abc import nltk import nltk.classify import nltk.sentiment import nltk.sentiment.util import logging import typing as t from ..database import Review from .base import BaseSA, AlreadyTrainedError, NotTrainedError log = logging.getLogger(__name__) class VanillaSA(BaseSA, metaclass=abc.ABCMeta): """ A sentiment analyzer resembling the one implemented in structure the one implemented in the classroom, using the basic sentiment analyzer of NLTK. """ def __init__(self) -> None: super().__init__() self.model: nltk.sentiment.SentimentAnalyzer = nltk.sentiment.SentimentAnalyzer() def _tokenize_text(self, text: str) -> list[str]: """ Convert a text string into a list of tokens, using the language of the model. """ tokens = nltk.word_tokenize(text) nltk.sentiment.util.mark_negation(tokens, shallow=True) return tokens def __add_feature_unigrams(self, training_set: list[tuple[list[str], str]]) -> None: """ Add the `nltk.sentiment.util.extract_unigram_feats` feature to the model. """ all_words = self.model.all_words(training_set, labeled=True) unigrams = self.model.unigram_word_feats(words=all_words, min_freq=4) self.model.add_feat_extractor(nltk.sentiment.util.extract_unigram_feats, unigrams=unigrams) def _featurize_documents(self, documents: list[tuple[list[str], str]]): """ Apply features to a document. """ return self.model.apply_features(documents, labeled=True) def _train_with_set(self, training_set: list[tuple[list[str], str]]) -> None: """ Train the model with the given **pre-classified but not pre-tokenized** training set. """ if self.trained: raise AlreadyTrainedError() self.__add_feature_unigrams(training_set) training_set_with_features = self._featurize_documents(training_set) self.model.train(trainer=nltk.classify.NaiveBayesClassifier.train, training_set=training_set_with_features) self.trained = True def _evaluate_with_set(self, test_set: list[tuple[list[str], str]]) -> dict: if not self.trained: raise NotTrainedError() test_set_with_features = self._featurize_documents(test_set) return self.model.evaluate(test_set_with_features) def _use_with_tokens(self, tokens: list[str]) -> str: if not self.trained: raise NotTrainedError() return self.model.classify(instance=tokens) class VanillaReviewSA(VanillaSA): """ A `VanillaSA` to be used with `Review`s. """ @staticmethod def _rating_to_label(rating: float) -> str: """ Return the label corresponding to the given rating. Possible categories are: * negative (0.0 <= rating < 3.0) * positive (3.0 < rating <= 5.0) """ if rating < 3.0: return "negative" else: return "positive" def _review_to_data_set(self, review: Review) -> tuple[list[str], str]: """ Convert a review to a NLTK-compatible dataset. """ return self._tokenize_text(text=review["reviewText"]), self._rating_to_label(rating=review["overall"]) def train(self, reviews: t.Iterable[Review]) -> None: data_set = list(map(self._review_to_data_set, reviews)) self._train_with_set(data_set) def evaluate(self, reviews: t.Iterable[Review]): data_set = list(map(self._review_to_data_set, reviews)) return self._evaluate_with_set(data_set) def use(self, text: str) -> str: return self._use_with_tokens(self._tokenize_text(text)) __all__ = ( "VanillaSA", "VanillaReviewSA", )